the surface of ice. The snow cover on the ice dis- 
appears gradually, and water begins to collect on the 
ice. This gradually eats away the ice surface and 
makes it porous and fragile. Finally, water starts 
penetrating the ice, which at this stage hardly bears 
the weight of a man. Determination of the extent of 
melting is not really an impossible task if use is made 
of the most recent inventions in the sphere of photo- 
graphy. 
By way of summary, it may be said that aerial photo- 
graphy has contributed much to ice research in the 
Baltic area also. Its future developments will doubt- 
less yield new results and open up new fields for 
study. 
GLACIER INVENTORY FROM 
AIR PHOTOGRAPHS 
by Valter Schytt 
Institute of Geography, Stockholm University, 
Stockholm, Sweden. 
ABSTRACT 
From the mountains in Swedish Lapland only old and 
not quite satisfactory maps are available. Previous 
inventories of Swedish glaciers have therefore become 
rather inaccurate. In 1959 a complete coverage of air 
photographs became available and the author has made 
use of this material for studying the regional distri- 
bution as well as the orientation of Swedish glaciers. 
A glacier map at a scale of 1:500 000 is presented. A 
total of 237 glaciers has been identified. They cover 
a total area of 310 km“. A detailed study of the 
glacier orientation shows that about 80 per cent of all 
Swedish glaciers (both according to number and to area) 
are located in the sector N-NE-E, i.e. they are leeward 
accumulations caused by the prevailing westerly and 
southwesterly storm winds. 
Sur les montagnes de la Laponie suedoise il n’y a 
que des cartes vieilles et peu satisfaisantes. Pour 
cette raison les inventaires précedents des glaciers 
suédois ont été assez inexacts. En 1959 des photo- 
graphies aériennes couvrant complètement cette région 
ont été disponibles et l'auteur & employé ce matériel 
afin d'étudier la distribution régionale aussi bien que 
l’orientation des glaciers suédois. Une carte sur les 
glaciers sur une échelle de 1:500.000 a été présentée. 
Une quantité totale de 237 glaciers a été identifiée. 
Ils couvrent une superficie totale de 310 km^. Une 
étude détaillée de l’orientation des glaciers montre 
qu'environ 80 $ de tous les glaciers suédois (selon la 
quantité aussi bien que la superficie) sont placés dans 
le secteur de N-NE-E, cela veut dire qu'ils sont des 
&ccumulations cÓté sous le vent, causées par des coups 
de vent d'ouest et de sud-ouest. 
Aerial photography has become a valuable tool for 
glaciologists whether they work with temperate or polar 
glaciers, on problems related to glacier movement, 
glacier regime, size variations or almost anything of 
glaciological Interest. For polar expeditions a good 
photographic coverage helps the glaciologist to extend 
his direct ground observations to much larger areas and 
it thus enables him to draw more far-reaching and better 
founded conclusions. From drainage features on the 
photograph the trained glaciologist can obtain informa- 
tion about temperature conditions in the ice and about 
the position of the accumulation limit; the existence 
of moraine features or lichen-free zones tell their 
References: 
Betin, B. B., Shadrinkski, S.V., Uralov, N.S., 1959: 
Novie metodi morski ledbyl avianabludeni. Trudi 
gosudarstvenovo okeanografizeskovo instituta, Nr 37. 
Leningard. 
Budel, Julius, 1943: Das Luftbild im Dienste der 
Eisforschung und Eiserkundung. Zeitschrift der 
Gesellschaft fur Erdkund zu Berlin. Heft 7/10. Berlin. 
Palosuo, Erkki, 1953: A Treatise on Severe Ice Conditions 
in the Central Baltic. Merentutkimuslaitoksen julkaisu 
nr 156. Helsinki. 
(Rodhe, Bertil,) 1959: The Baltic Ice Code. Sveriges 
Meteorologiska och Hydrologiska Institutets 
Meddelanden, Serie E nr 10. Stockholm. 
  
Story about the glacial-history; repeated photography 
of calving glaciers or ice shelves seems to be the only 
practicable way of getting a quantitative measure of 
this type of ice wastage. 
There are thus numerous problems which can be tackled 
only if air photographs are available and one such prob- 
lem will be described here. 
General inventory of Swedish glaciers. 
A quite satisfactory inventory of all Swedish 
glaciers has never been carried out because of the lack 
of good high mountain topographic maps. The maps avail- 
able were prepared around 1880 and 1890, and even though 
their quality must be considered as excellent if the 
large area, the short time and the difficult working 
conditions are taken into account, the deviations be- 
tween maps and nature are sometimes considerable. 
When it comes to glaciers the maps are of course even 
less reliable than they are for the hydrographical and 
the main topographical features; several glaciers have 
never been plotted as such, several snow fields or 
lakes have been plotted as glaciers. 
However, during 1959 a good coverage of air photo- 
graphs (exposed in 1958) has become available and it is 
now possible to make a careful study of glaciers in 
various mountain regions as well as of their areal ex- 
tent, their orientation, thelr moraine features and 
their retreat. 
For the present study the author has made a rather 
preliminary inventory and used the following simple 
procedure: 
1/ Vertical air photographs at an approximate scale of 
1:65000, or occasionally 1:30000, have been studied 
under a stereoscope, and as soon as a snow or ice 
feature has been identified as a glacier it has been 
plotted on tracing paper straight from one photograph 
only. Together with the glaciers all rivers and lakes 
have also been plotted on the paper but seldom any 
other topographic features. 
  
1) The hitherto most comprehensive one was published 
in 1910 - Die Gletscher Schwedens im Jahre 1908. 
Sveriges Geologiska Undersokning. Ser.C&. No 5. It 
contains a glacier map of all Sweden and several very 
valuable papers on different glaciers and glacierized 
regions. 
  
  
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